CN206420117U - A kind of remaining recoverable air-conditioning - Google Patents
A kind of remaining recoverable air-conditioning Download PDFInfo
- Publication number
- CN206420117U CN206420117U CN201621328191.5U CN201621328191U CN206420117U CN 206420117 U CN206420117 U CN 206420117U CN 201621328191 U CN201621328191 U CN 201621328191U CN 206420117 U CN206420117 U CN 206420117U
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- heat exchange
- exchange unit
- unit
- thermo
- gaseous refrigerant
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- Compression-Type Refrigeration Machines With Reversible Cycles (AREA)
Abstract
A kind of remaining recoverable air-conditioning, it is related to air-conditioning technical field, including outer heat exchange unit, interior heat exchange unit, control valve, compression unit, it is additionally provided with middle heat exchange unit, the middle heat exchange unit is by liquid refrigerant, thermo-electric generation sheet, gaseous refrigerant is constituted, liquid refrigerant circulates in the tubule amplexiformed with thermo-electric generation sheet bottom surface, gaseous refrigerant circulates in the tubule amplexiformed with thermo-electric generation sheet top surface, the gaseous refrigerant that compression unit exports interior heat exchange unit is delivered to middle heat exchange unit through control valve, the gaseous refrigerant of output is delivered to outer heat exchange unit by middle heat exchange unit.Liquid refrigerant and gaseous refrigerant are respectively in the tubule internal circulation flow of thermo-electric generation sheet upper and lower surface, heat exchange, which is carried out, using the temperature difference of liquid refrigerant during operation of air conditioner and gaseous refrigerant reclaims the complementary energy that interior heat exchange unit is discharged, so as to the recycling by complementary energy is produced in operation of air conditioner, to improve efficiency.
Description
Technical field
The utility model is related to air-conditioning technical field, more particularly to a kind of remaining recoverable air-conditioning.
Background technology
Air-conditioning is air regulator, refers to manually means, to the temperature of surrounding air in building/structures, humidity, clean
The process that the parameters such as cleanliness, speed are adjusted and controlled, generally comprises cold source equipment, cold and hot medium distributing system, end dress
Several major and other auxiliary equipments such as put.And the interior heat exchange unit outflow in running of current air-conditioning system structure
There are a large amount of complementary energy in gas could not make full use of.Specifically, during air conditioner refrigerating, the output end of interior heat exchange unit has certain
The cryogenic gas of cold energy flows back to compression unit, causes to waste.
The content of the invention
The purpose of this utility model is to be directed to deficiency of the prior art, and provides a kind of remaining recoverable air-conditioning, will
The recycling of complementary energy is produced in operation of air conditioner, so as to improve efficiency.
The technical solution of the utility model is:A kind of remaining recoverable air-conditioning is provided, including outer heat exchange unit, interior heat are handed over
Unit, control valve, compression unit are changed, middle heat exchange unit is additionally provided with, the middle heat exchange unit is by liquid refrigerant, the temperature difference
Generating piece, gaseous refrigerant composition, liquid refrigerant circulate in the tubule amplexiformed with thermo-electric generation sheet bottom surface, gaseous refrigerant
Circulated in the tubule amplexiformed with thermo-electric generation sheet top surface, the gaseous refrigerant that compression unit exports interior heat exchange unit is through control
Valve processed is delivered to middle heat exchange unit, and the gaseous refrigerant of output is delivered to outer heat exchange unit by middle heat exchange unit.
Wherein, the middle heat exchange unit, provided with heat-insulated shell is sealed, is in snake respectively positioned at the tubule of enclosure
Row shape is amplexiformed in thermo-electric generation sheet top surface and bottom surface.
Wherein, the gaseous refrigerant input of middle heat exchange unit is connected with the output end of control valve, and intermediate heat is handed over
The gaseous refrigerant output end for changing unit is connected with the input of compression unit.
Wherein, compression unit is serially connected between the gaseous state output end of middle heat exchange unit and the input of control valve.
Wherein, the output end of thermo-electric generation sheet is electrically connected with boosting unit, boosting unit include boost chip, resistance R1,
Resistance R2 and boost inductance, resistance R1 and resistance R2 are serially connected between the output end of boost chip and ground, resistance R1 and resistance
R2 contact is electrically connected with boost chip feedback end.
Liquid refrigerant and gaseous refrigerant in the tubule internal circulation flow of thermo-electric generation sheet upper and lower surface, utilize sky respectively
The temperature difference of liquid refrigerant and gaseous refrigerant carries out heat exchange and reclaims the complementary energy that interior heat exchange unit is discharged during allocation and transportation row.Tool
Body, during refrigeration, outer heat exchange unit comes out liquid refrigerant temperature height, and interior heat exchange unit comes out gaseous refrigerant temperature
Degree is low, and the two flows through middle heat exchange unit, in the thermo-electric generation sheet upper and lower surface formation temperature difference, utilizes thermo-electric generation sheet and matches shellfish
Gram principle generates electricity;So as to the recycling by complementary energy is produced in operation of air conditioner, to improve efficiency.
Brief description of the drawings
Fig. 1 is the utility model air-conditioning system structural representation.
Fig. 2 is the profile of middle heat exchange unit.
Embodiment
The utility model is further described with the following Examples.
As depicted in figs. 1 and 2, the utility model includes outer heat exchange unit, interior heat exchange unit, control valve 1, compression list
Member 2, is additionally provided with middle heat exchange unit, and the middle heat exchange unit is freezed by liquid refrigerant 32, thermo-electric generation sheet 31, gaseous state
Agent 33 is constituted, and liquid refrigerant 32 circulates in the tubule 34 amplexiformed with the bottom surface of thermo-electric generation sheet 31, gaseous refrigerant 33 with
Circulated in the tubule 34 that the top surface of thermo-electric generation sheet 31 is amplexiformed, the gaseous refrigerant 33 that compression unit 2 exports interior heat exchange unit
Middle heat exchange unit is delivered to through control valve 1, the gaseous refrigerant 33 of output is delivered to outer heat and handed over by middle heat exchange unit
Change unit.Wherein compression unit 2 concatenates middle heat exchange unit, and liquid refrigerant 32 and gaseous refrigerant 33 are sent out in the temperature difference respectively
The internal circulation flow of tubule 34 of the electric upper and lower surface of piece 31, utilizes the temperature of liquid refrigerant during operation of air conditioner 32 and gaseous refrigerant 33
Difference carries out heat exchange and reclaims the complementary energy that interior heat exchange unit is discharged.
Middle heat exchange unit is provided with heat-insulated shell 35 is sealed, and the tubule 34 inside shell 35 is respectively in snake shape
Amplexiform in the top surface of thermo-electric generation sheet 31 and bottom surface.Middle heat exchange unit has two output ends and input, and respectively gaseous state is cold
Freeze the input of agent 33, the output end of gaseous refrigerant 33, the input and output end of liquid refrigerant 32.Wherein, liquid refrigerant
32 input and output end is connected with the output end and interior heat exchange unit input of outer heat exchange unit respectively, and gaseous state is cold
Freeze the input of agent 33 with the output end of control valve 1 to be connected, the output end of gaseous refrigerant 33 is connected with the input of compression unit 2
Connect.Compression unit 2 is serially connected between the gaseous state output end of middle heat exchange unit and the input of control valve 1.Thermo-electric generation sheet
31 output end is electrically connected with boosting unit, and boosting unit includes boost chip, resistance R1, resistance R2 and boost inductance, electricity
Resistance R1 and resistance R2 is serially connected between the output end of boost chip and ground, and resistance R1 and resistance R2 contact and boost chip are fed back
End electrical connection.When partial pressure is higher, boost chip reduces output by feedback influence, and when partial pressure is relatively low, boost chip is fed back
Influence raises output, so as to dynamically make the output of the boost chip be stable at setting value.
During refrigeration, the compressed unit 2 of gaseous refrigerant 33 pressure becomes high temperature and high pressure gas via control valve 1 from outer heat after increasing
Crosspoint input enters outer heat exchange unit, and outer heat exchange unit becomes the liquid of normal temperature high voltage to air after sufficiently exothermic
Refrigerant 32 is come out by outer heat exchange unit output end again, and liquid refrigerant 32 flow to thermo-electric generation sheet in middle heat exchange unit
In the tubule 34 of 31 bottom surfaces, the one side reducing pressure by regulating flow in tubule 34, on the other hand again with circulation in the top surface of thermo-electric generation sheet 31
Gaseous state low-temperature refrigerant carry out heat exchange, be finally throttled decompression cool into low-temp low-pressure liquid refrigerant 32 enter it is interior heat hand over
Change unit and be evaporated refrigeration, in interior heat exchange unit, liquid refrigerant and the room air of low-temp low-pressure pass through abundant heat
Exchange, be changed into the gaseous refrigerant 33 of low-temp low-pressure and come out by interior heat exchange unit output end, then be transported to via control valve 1
The input of gaseous refrigerant 33 of middle heat exchange unit, the tubule 34 of the top surface of thermo-electric generation sheet 31 in middle heat exchange unit
It is interior to be changed into Room-temperature low-pressure gas after the liquid refrigerant 32 of the bottom surface of thermo-electric generation sheet 31 carries out heat exchange with circulation, and from centre
The output end of gaseous refrigerant 33 of heat exchange unit comes out, and enters compression unit 2, starts subsequent cycle.And during this,
The upper and lower surface of the thermo-electric generation sheet 31 formation temperature difference, makes thermo-electric generation sheet 31 be generated electricity under Sai Beike principles, and boosted list
The small power electric subcomponent that voltage is raised in burning voltage, supply air-conditioning is operated by member, so as to will be produced in operation of air conditioner
The recycling of raw complementary energy, reaches the purpose for improving efficiency.
Finally it should be noted that above example is only illustrating the technical solution of the utility model, rather than to this reality
With the limitation of novel protected scope, although being explained with reference to preferred embodiment to the utility model, this area it is general
Lead to it will be appreciated by the skilled person that can be modified to the technical solution of the utility model or equivalent substitution, without departing from this
The spirit and scope of utility model technical scheme.
Claims (5)
1. a kind of remaining recoverable air-conditioning, including outer heat exchange unit, interior heat exchange unit, control valve, compression unit, its feature
It is:Middle heat exchange unit is additionally provided with, the middle heat exchange unit is by liquid refrigerant, thermo-electric generation sheet, gaseous refrigerant group
Into, liquid refrigerant circulates in the tubule amplexiformed with thermo-electric generation sheet bottom surface, gaseous refrigerant with thermo-electric generation sheet top surface
Circulated in the tubule amplexiformed, the gaseous refrigerant that compression unit exports interior heat exchange unit is delivered to intermediate heat through control valve and handed over
Unit is changed, the gaseous refrigerant of output is delivered to outer heat exchange unit by middle heat exchange unit.
2. a kind of remaining recoverable air-conditioning according to claim 1, it is characterized in that:The middle heat exchange unit is provided with close
The shell of heat is insulated, the tubule positioned at enclosure is amplexiformed in thermo-electric generation sheet top surface and bottom surface in snake shape respectively.
3. a kind of remaining recoverable air-conditioning according to claim 2, it is characterized in that the gaseous state freezing of middle heat exchange unit
Agent input is connected with the output end of control valve, the gaseous refrigerant output end of middle heat exchange unit and compression unit
Input is connected.
4. a kind of remaining recoverable air-conditioning according to claim 3, it is characterized in that compression unit is serially connected in intermediate heat friendship
Change between the gaseous state output end of unit and the input of control valve.
5. a kind of remaining recoverable air-conditioning according to claim 1, it is characterized in that:The output end electrical connection of thermo-electric generation sheet
There is boosting unit, boosting unit includes boost chip, resistance R1, resistance R2 and boost inductance, and resistance R1 is concatenated with resistance R2
Between the output end and ground of boost chip, resistance R1 is electrically connected with resistance R2 contact with boost chip feedback end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621328191.5U CN206420117U (en) | 2016-12-06 | 2016-12-06 | A kind of remaining recoverable air-conditioning |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621328191.5U CN206420117U (en) | 2016-12-06 | 2016-12-06 | A kind of remaining recoverable air-conditioning |
Publications (1)
Publication Number | Publication Date |
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CN206420117U true CN206420117U (en) | 2017-08-18 |
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ID=59575191
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621328191.5U Expired - Fee Related CN206420117U (en) | 2016-12-06 | 2016-12-06 | A kind of remaining recoverable air-conditioning |
Country Status (1)
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CN (1) | CN206420117U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110940036A (en) * | 2019-12-13 | 2020-03-31 | 宁波奥克斯电气股份有限公司 | Air conditioner |
CN111146973A (en) * | 2020-01-10 | 2020-05-12 | 北京理工大学 | Power generation device utilizing temperature difference between inside and outside of building wall |
-
2016
- 2016-12-06 CN CN201621328191.5U patent/CN206420117U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110940036A (en) * | 2019-12-13 | 2020-03-31 | 宁波奥克斯电气股份有限公司 | Air conditioner |
CN111146973A (en) * | 2020-01-10 | 2020-05-12 | 北京理工大学 | Power generation device utilizing temperature difference between inside and outside of building wall |
CN111146973B (en) * | 2020-01-10 | 2020-11-10 | 北京理工大学 | Power generation device utilizing temperature difference between inside and outside of building wall |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170818 Termination date: 20171206 |